Friday, May 16, 2014

We're getting a lot of questions about how the owl could have gotten past Mom and Dad in Eagle Valley. Are Mom and Dad bad parents? Unobservant? Poor protectors? No. However, they are primarily diurnal birds. Although we've seen bald eagles awake and active after dark, they tend to sleep at night: http://www.ustream.tv/recorded/47617300. In contrast, owls are outstanding nocturnal hunters. They fly silently, have very large, tubular eyes with an abundance of light gathering rods, and possess exceptional hearing thanks in part to their facial disks and in part to ear hole placement. The owl could have landed on the nest before either parent was aware of it. When Mom reacted, she may have uncovered her young and unintentionally made them available to the hunting owl.

On February 25, an owl jumped on Mom in Decorah. While she wasn't injured and there were no young in the nest, the video below provides an example of just how silent they can be in flight. Thanks to David Lynch for finding it. If you'd like to read more about owls, click here: http://goo.gl/W0pL0K

We've also been asked why an owl would target an eagle's nest. Owls eat a wide variety of prey and the nest was a potential source of food, adult eagle or not. The eagle nest invaders we've seen include owls, raccoon, red-tailed hawks, squirrels, starlings, sparrows, and mice. Some of them were drawn by eggs and young birds, others wanted nestovers, and one hungry red-tailed hawk attempted to steal prey from Dad in 2011 (clearly visible at 2:15 in the video): http://youtu.be/VbrBUMS_ZPc. Many animals are willing to risk approaching the nest for a meal. Sometimes they are successful and sometimes, like the hawk at Duke Farms last year, they die in the attempt (warning: some readers may find this video disturbing): https://www.youtube.com/watch?v=QqooTTD8sn4

In short, the parents at Eagle Valley are not deficient or lax. I've watched the footage a number of times and I can't hear an owl coming (or see anything). The nest was targeted by a specialist nocturnal hunter who was able to get into the nest before either of the adult eagles were aware of it. We hope the remaining eaglet survives until fledge.

Tuesday, May 13, 2014

This video shows Dad bringing a freshly killed rabbit to the nest. After pausing in a tree, he circles over a field before landing in the nest with his catch. What is going on? Why did Dad pause in a tree, and why didn’t he fly directly to the nest after taking a break? I’m going to write a little bit about the basics of flight and why Dad might have flown the way he did.

There are four basic forces that govern flight: lift, thrust, weight, and drag.

Lift pushes birds upwards. Lift is produced primarily by wing curvature, which induces low air pressure on the top of the wing and high air pressure on the bottom. Primary and secondary feathers both help create lift.

Thrust propels birds forward. When a bird flaps, its primary feathers twist at an angle relative to the rest of its wing and the bird’s line of flight. This twisting or spinning motion induces low pressure ahead of the bird’s wing and high pressure behind it, aiding forward motion. Depending on the strength of the flap, a bird’s entire outer wing might twist in response.

Weight equals mass times the acceleration of gravity, so weight can be defined as the force of gravity on an object. Weight pulls birds down and puts an upper limit on flighted bird size.

Drag counteracts forward motion. Air passing over the bird’s wing produces friction and creates wingtip vortices that direct the air behind the wing downward, inducing downwash and causing drag. We think birds have a number of ways to counteract drag. Wing slots increase the span factor of bird wings and spread vortices horizontally and vertically, dissipating their kinetic energy and reducing their sucking power. As the bird’s wing is tilted upwards, its angle eventually becomes so steep that air cannot flow smoothly over the surface of the wing and lift decreases. The alula, a small projection on the front wing of birds, can be manipulated to create a temporary slot that allows birds to steeply angle their wings without stalling out.

Catching prey in flight requires less force, since acceleration, lift, and thrust are already part of the equation. Unfortunately, Dad is on the ground. The rabbit could be adding two or more pounds of weight and has no aerodynamic qualities whatsoever. Dad needs powerful wing flaps and a lot of force to counteract gravity, gain lift, thrust forward, and hoist his rabbit into the air.

Dad takes a breather on a tree limb before bringing his prey to the nest. But if carrying prey is so hard, why doesn’t he fly directly to the nest? Although the angle makes it hard to tell, the tree limb is below the nest and the approach may not have been good. Dad puts gravity to work by dropping from the branch, gaining a little no-cost acceleration. He spreads his wings wide and pitches them slightly back as he launches, catching the air for a little free lift. This reduces the amount of work required to lift and carry prey, since force = mass x acceleration and Dad is using gravity to assist lift - something he can't do from the ground. His spread alula can be seen at 1:11, allowing Dad to steeply angle his wings for a bigger downstroke without loosing his hard earned lift. Note that we don't see the alula in regular flight later in the video.

In short, it’s a lot easier to drop off a high place than fly up from the ground, especially when prey is involved. With a little assist from the tree branch, Dad was able to spiral around at the far end of the field and gain enough lift to drop easily into the nest. Eagles fly so wonderfully that it’s easy to forget how much work and experience goes into it.

Welcome to RRP's Blog!

Established in 1988, the non-profit Raptor Resource Project specializes in the preservation of falcons, eagles, ospreys, hawks, and owls. We create, improve, and directly maintain nests and nest sites, provide training in nest site creation and management, and develop innovations in nest site management and viewing that bring people closer to the natural world. Our mission is to preserve and strengthen raptor populations, expand participation in raptor preservation, and help foster the next generation of preservationists.